Burden of illness in patients with pulmonary hypertension due to interstitial lung disease: a real-world analysis

Background Pulmonary hypertension due to interstitial lung disease (PH-ILD) is associated with high rates of respiratory failure and death. Healthcare resource utilization (HCRU) and cost data are needed to characterize PH-ILD disease burden. Methods A retrospective cohort analysis of the Truven Health MarketScan® Commercial Claims and Encounters Database and Medicare Supplemental Database between June 2015 to June 2019 was conducted. Patients with ILD were identified and indexed based on their first claim with a PH diagnosis. Patients were required to be 18 years of age on the index date and continuously enrolled for 12-months pre- and post-index. Patients were excluded for having a PH diagnosis prior to ILD diagnosis or the presence of other non-ILD, PH-associated conditions. Treatment patterns, HCRU, and healthcare costs were compared between the 12 months pre- versus 12 months post-index date. Results In total, 122 patients with PH-ILD were included (mean [SD] age, 63.7 [16.6] years; female, 64.8%). The same medication classes were most frequently used both pre- and post-index (corticosteroids: pre-index 43.4%, post-index 53.5%; calcium channel blockers: 25.4%, 36.9%; oxygen: 12.3%, 25.4%). All-cause hospitalizations increased 2-fold, with 29.5% of patients hospitalized pre-index vs. 59.0% post-index (P < 0.0001). Intensive care unit (ICU) utilization increased from 6.6 to 17.2% (P = 0.0433). Mean inpatient visits increased from 0.5 (SD, 0.9) to 1.1 (1.3) (P < 0.0001); length of stay (days) increased from 5.4 (5.9) to 7.5 (11.6) (P < 0.0001); bed days from 2.5 (6.6) to 8.0 (16.3) (P < 0.0001); ICU days from 3.8 (2.3) to 7.0 (13.2) (P = 0.0362); and outpatient visits from 24.5 (16.8) to 32.9 (21.8) (P < 0.0001). Mean (SD) total all-cause healthcare costs increased from $43,201 ($98,604) pre-index to $108,387 ($190,673) post-index (P < 0.0001); this was largely driven by hospitalizations (which increased from a mean [SD] of $13,133 [$28,752] to $63,218 [$75,639] [P < 0.0001]) and outpatient costs ($16,150 [$75,639] to $25,604 [$93,964] [P < 0.0001]). Conclusion PH-ILD contributes to a high HCRU and cost burden. Timely identification, management, and treatment are needed to mitigate the clinical and economic consequences of PH-ILD development and progression.


Background
Pulmonary hypertension (PH) is a chronic condition characterized by elevated resting pulmonary arterial pressure with accompanying increased pulmonary vascular resistance on right heart catheterization (RHC) [1,2] PH can be categorized into 5 groups, with Group 3 PH arising from underlying lung diseases and/or hypoxia, including interstitial lung disease (ILD) [1,2].ILD is heterogeneous, representing more than 200 disorders, and typically causes fibrosis and inflammation within the interstitial space (i.e., the tissue surrounding the lung's air sacs, blood vessels, and airways) [3].The pathologic changes of PH-ILD impair gas exchange and lead to breathlessness, an increased need for supplemental oxygen, reduced exercise and functional capacity, and diminished quality of life.Patients with PH-ILD and progressive pulmonary fibrosis can decline rapidly and have particularly high rates of respiratory failure and death [1,3,4].
PH-ILD prevalence varies widely due to variations in diagnostic techniques, the hemodynamic thresholds applied to define PH, the underlying ILD type, and disease stage [5].PH has been reported in increasingly higher proportions of patients with idiopathic pulmonary fibrosis (IPF; the most commonly researched form of ILD) in a manner that is dependent on the timing of evaluation.Epidemiologic data indicate that PH prevalence is 8-15% at initial IPF diagnosis, 29-46% at the time of evaluation for lung transplant [4,[6][7][8][9][10] and up to 86% at the time of lung transplant [1,4,[11][12][13].Patients with PH-IPF have significantly worse survival than patients with IPF alone.In one analysis of patients with IPF undergoing RHC, median survival from the time of initial evaluation was 20.8 months for patients with PH (defined as mean pulmonary artery pressure [mPAP] > 20 mmHg) versus 37.5 months for patients without PH (P = 0.001) [11].
Patients with fibrotic ILDs can benefit from supportive care, supplemental oxygen, and pulmonary rehabilitation, especially early in the course of disease [3,14].Pharmacotherapeutic treatments for PH-ILD vary based on the underlying etiology, with evidence-based drug treatments existing for only a small number of ILDs [3].Offlabel drug use is common and includes anticoagulants, corticosteroids, immunomodulators, and pulmonary vasodilators, although the clinical impact of these drugs is disputed [3,14].Two antifibrotic therapies have been approved for patients with IPF (nintedanib and pirfenidone), but their effect on PH attributed to IPF has not been studied [5].
Until recently, no medical therapies were approved for PH-ILD by the United States Food and Drug Administration (FDA) [5].However, in 2021, inhaled treprostinil received an FDA indication to improve exercise ability in patients with Group 3 PH-ILD [24,25].This approval was based on results from the phase 2/3, randomized, double-blind, placebo-controlled INCREASE trial, which successfully achieved the primary endpoint of change in 6MWD from baseline to week 16 [26].
Fibrotic ILDs are associated with high healthcare resource utilization (HCRU) and costs, especially in patients with more advanced disease [27].However, to date, only one US study (a retrospective analysis, conducted from 2010 to 2013) has quantified treatment patterns, HCRU, and healthcare-related costs for patients with Group 3 PH (including patients with PH-ILD) [28].More current and diagnostically specific real-world data are needed.This retrospective US medical claims analysis was conducted to characterize pharmacologic treatment patterns, HCRU, and costs in patients, both before and after PH diagnosis in patients with ILD.

Study population
Patients were required to have ≥ 1 medical claim with an ILD diagnosis between June 2015 and June 2018, and ≥ 1 subsequent medical claim for PH from June 2016 to June 2018 during the identification period (Fig. 1).The first observed claim with a PH diagnosis during the identification period was defined as the index date.At index, patients had to be ≥ 18 years of age, with ≥ 12 months of continuous pre-and post-index health insurance enrollment.Also required was ≥ 1 medical claim with an ILD diagnosis in the 12-month pre-index period.Patients were excluded if they had ≥ 1 medical claim for PH prior to ILD diagnosis, or if they had ≥ 1 medical claim diagnosing a non-ILD Group 3 PH condition or a Group 2, 4, or 5 PH condition at any time during the study [29].Patients were excluded if they had only 1 outpatient claim or only 2 outpatient claims < 30 days apart for PH during the identification period.

Pre-and post-index measures
Baseline demographic and clinical characteristics were measured in the pre-index period and included age, sex, geographic region, insurance payer and plan type, index year, Quan-Charlson comorbidity index (Quan-CCI) and individual comorbidities [30], and RHC frequency.Treatments for antifibrotic agents (i.e., nintedanib and pirfenidone); anti-reflux medications (e.g., antacids, proton pump inhibitors); calcium channel blockers; corticosteroids; oxygen; and pharmaceuticals approved for PAH (i.e., prostacyclin analogues, ERAs, PDE5i, and sGCS) were evaluated in the 12-months pre-and post-index periods.
All-cause HCRU was captured during the 12-month pre-and post-index periods and included the number and percentage of patients with ≥ 1 inpatient hospitalization, intensive care unit (ICU) admission during a hospitalization, emergency department (ED) visit, physician office visit, laboratory visit, and other outpatient visit.The number of unique prescriptions per-patient was also captured, as were per-patient hospital bed days (the sum of length of stay [LOS] days for all hospitalizations during the study period) averaged across the entire population; per-patient average LOS per hospitalization (averaged across patients with ≥ 1 hospitalization); and per-patient ICU days, averaged across those with ≥ 1 ICU stay.
Information regarding the setting of care was identified from the claims data using inpatient files, place of service variables, and applicable Current Procedural Terminology (CPT®)-4 procedure codes.ED and physician office visits were not counted if the visit occurred on the same day as a hospitalization.Laboratory visits were identified using claims for primary procedure codes in claims not previously categorized as ED, office, or ambulatory surgery visits."Other" outpatient visits included visits not previously classified as ambulatory surgery, ED, physician office, or laboratory visits.Also classified as "Other" outpatient visits were any inpatient visits captured in the outpatient data file, but not documented as an inpatient visit in the inpatient data file.
Healthcare costs included both medical and prescription costs, and reflected payments made by both the health plan and patient (copayments, coinsurance, deductibles) during the 12-month pre-and post-index periods.Costs were reported as an average per-patient and included total costs, prescriptions, and related to the setting of care (inpatient or outpatient).Cost components related to inpatient care were hospitalizations (including ICU stays); for outpatient care, costs were reported for ED, physician office, laboratory, and other outpatient visits.
Patients with evidence of capitated claims (defined as ≥ 1 medical claim with a capitated service claim indicator) during the study period were excluded from cost analyses because capitated payments are pre-calculated and may not reflect the actual costs of care [31].All costs were adjusted to 2019 US dollars using the Bureau of Labor Statistics' medical care component of the Consumer Price Index [32], and reported annually.

Statistical analysis
All demographic, clinical characteristics, and pharmacotherapy variables measured during the pre-index period were analyzed descriptively using frequencies and percentages for categorical variables, and means, standard deviations (SDs), medians, and interquartile ranges (IQRs) for continuous variables.For treatment patterns, McNemar's test was used to compare differences in the proportion of patients who used treatments between the pre-and post-index periods.HCRU was calculated annually and assessed both pre-and post-index as frequencies and percentages as well as means (SD) and medians (IQR) and then compared using Wilcoxon non-parametric tests.Post-index costs were calculated annually and compared with pre-index costs using Wilcoxon non-parametric tests.All statistical tests applied a 2-sided hypothesis of no difference between the pre-and post-index periods, at a significance level of 0.05.Analyses were conducted using Statistical Analysis Software (Version 9.4 or higher; Cary, NC: SAS Institute, Inc.; 2011).

Demographic and clinical characteristics
A total of 9,379 patients with a claim for ILD (June 2015 to June 2018) and a subsequent claim for PH (June 2016 to June 2018) were identified.After applying the selection criteria (Figs. 2), 122 patients with PH-ILD were included in the final cohort.Mean (SD) patient age was 63.7 (16.6) years, and most patients were female (64.8%) and had commercial insurance (54.9%).The highest proportion of patients resided in the geographic south (32.0%), and most (57.4%) had a Quan-CCI score ≥ 3 (Table 1).The most common prevalent comorbidities were chronic pulmonary disease (94.3%), diabetes (36.1%), and rheumatic disease (34.4%).In total, only 3.3% of patients had received RHC at baseline.

Healthcare resource utilization and costs
Table 2 summarizes HCRU in terms of proportional and mean resource utilization in the 12 months pre-and post-index, including inpatient and outpatient care and unique prescriptions dispensed.Percentage of patients experiencing a hospitalization increased from 29.5% pre-index to 59.0% post-index (P < 0.0001), while ICU utilization increased from 6.6 to 17.2% (P = 0.0433).The mean number of inpatient visits, LOS per hospitalization, hospital bed days, and ICU days were all significantly higher post-index relative to pre-index.Between the pre-index and post-index periods, inpatient visits increased from a mean of 0.5 (SD, 0.9) to 1.1 (1.3) (P < 0.0001); LOS increased from 5.4 (5.9) to 7.5 (11.6) days (P < 0.0001); bed days increased from 2.5 (6.6) to 8.0 (16.3) (P < 0.0001); and ICU days increased from 3.8 (2.3) to 7.0 (13.2) (P = 0.0362).

Discussion
This US medical claims analysis (2015-2019) identified real-world HCRU and costs for patients with ILD subsequently diagnosed with PH; this was accomplished by comparing patient healthcare data for the 12 months before and after PH-ILD diagnosis.Overall, both mean and median healthcare costs rose by ~ 150% from preindex (mean, $43,201 [SD, $98,604]; median; $20,732) to post-index (mean, $108,387 [SD, $190,673]; median, $50,843) (P < 0.0001).This change was driven primarily by higher rates of inpatient care, more outpatient visits, and increased prescription drug use.
Post-index, inpatient care was the single greatest contributor to HCRU, and represented 58.3% of total healthcare costs.During the study, the proportion of patients requiring inpatient hospital visits increased by 100% and the proportion requiring an ICU visit increased by 161% (from 29.5 to 59.0% of patients, and 6.6-17.2%,respectively).Related to outpatient care, nearly all patients had outpatient visits both pre-and post-index (99.2%), but the mean number of outpatient visits increased significantly in the year following PH-ILD diagnosis (from 24.5 to 32.9; P < 0.0001).After PH-ILD diagnosis, patient prescriptions increased by 24%, corresponding to a 66% increase in mean drug costs between the pre-and post-index periods (from $7,913 to $13,153).However, a relative reduction was observed in drug prescriptions as a   proportion of total healthcare costs (from 18.3 to 12.1%).These data support prior research showing high costs and healthcare burden associated with these conditions [3,28], and suggest that the additive diagnosis of PH to ILD substantially increases existing health utilization and cost burden.
Prior to this analysis, only one US retrospective claims study existed to quantify treatment patterns and costs in patients with Group 3 PH [28].This previous study used a case-control design to evaluate commercial and Medicare data from 2010 to 2013 using the Truven Health Database.Patients with Group 3 PH were identified based on ≥ 2 claims for PH, ≥ 1 claim for RHC or electrocardiogram, and ≥ 1 claim for a lung disease associated with Group 3 PH.Control patients had no claims for PH, but did have ≥ 1 claim for a lung disease associated with Group 3 PH.In the final study population, 19.6% of patients had PH-ILD.Over 12 months of follow-up, patients with Group 3 PH had significantly higher healthcare utilization (both overall and respiratory-related) compared to control patients, leading to all-cause healthcare costs of $44,732 for Group 3 PH and $7,051 for control patients.The primary drivers of post-diagnostic HCRU for Group 3 PH patients were inpatient admissions (35.4%), prescription drugs (33.0%), and outpatient visits (26.5%).Patients with Group 3 PH showed a steady increase in costs from baseline to follow up, while control patients with other lung diseases showed healthcare cost reductions over time.
The present analysis extends the research base for PH-ILD by providing current, targeted real-world HCRU and cost data for this patient population.Previous studies observed broader Group 3 PH which observed cohorts with different respiratory conditions aside from ILD.This study utilized a series of eligibility requirements to select a true PH-ILD population.Specifically, patients were required to have an initial ILD diagnosis, followed by a PH diagnosis, while patients with non-ILD Group 3 PH or other PH Group diagnoses were excluded.
In the current study, the most commonly prescribed drug classes, both pre-and post-index, were corticosteroids (53.3% post-index) and calcium channel blockers (36.9% post-index), and the use of antifibrotic and PAHspecific medications was rare (post-index utilization of ERA and PDE5i drugs was 1.6% and 5.7%).In the prior analysis, the most commonly prescribed drug classes post-index for patients with PH-ILD (n = 438) were diuretics (53.9%) and calcium channel blockers (39.3%); approximately 20% and 30% of patients received ERA and PDE5i drugs [28].This difference observed is likely due to differing selection criteria where this study did not allow for other Group 3 associated conditions aside from ILD.
This study and its findings are subject to certain limitations associated with retrospective claims analyses.Specifically, these data were originally captured for reimbursement and not research purposes, and inaccuracies may exist in diagnostic coding or pharmacy claims.Furthermore, the data collected might be limited to insured patients captured within the database.Generalizability to patients covered outside this database and uninsured patients should be interpreted with caution.The exclusion of patients with any medical claim diagnosing a non-ILD Group 3 PH condition or a Group 2, 4, or 5 PH is a limitation, as it may have led to misclassification and therefore exclusion of some patients with PH-ILD.Similarly, the low rate of confirmatory PH diagnoses using RHC may have led to an underestimation or misclassification of patients with PH-ILD.It is possible that patients did not receive RHC because, prior to the FDA approval of inhaled treprostinil for PH-ILD, no change in treatment would have been likely, even with a definitive diagnosis.Regardless, the low rate of RHC at index points to a limitation in current clinical practice and a knowledge gap regarding the approaches used by clinicians to confirm, and subsequently file claims, for PH.
In conclusion, regardless of its etiology, PH is a costly and complex disease.However, patients with ILD appear to experience a uniquely high medical and healthcare cost burden after diagnosis of pulmonary hypertension.The timely management and treatment of PH-ILD is needed to mitigate the clinical and economic consequences of disease progression.*Mean (SD) and median are calculated for the entire cohort † Mean (SD) and median are calculated for the subset of patients with an inpatient hospitalization.§ Mean (SD) and median are calculated for the subset of patients with an ICU stay during an inpatient hospitalization.
Abbreviations: ED = emergency department; ICU = intensive care unit; IQR = interquartile range; SD = standard deviation.*Please note that 14 patients were not included in this analysis for having capitated claims.

Fig. 5
Fig. 5 HCRU in the 12-Month Pre-and Post-Index Period, Mean All-Cause Total Healthcare Costs.Abbreviations: CPI = Consumer Price Index; ED = emergency department; HCRU = healthcare resource utilization

Fig. 4
Fig. 4 Percentage of Patients with HCRU in the 12-Month Pre-and Post-Index Period.*Not significant vs. pre-index utilization.Abbreviations: ED = emergency department; HCRU = healthcare resource utilization; ICU = intensive care unit

Table 1
Patient demographic and clinical characteristics at Index

Table 2
Healthcare Resource Utilization in the 12-Month pre-and Post-index Period

Table 3
Healthcare costs in the 12-Month pre-and Post-index Period